Author
Listed:
- Rasul Mohebbi
(School of Engineering, Damghan University, P. O. Box 3671641167, Damghan, Iran)
- Mohsen Babamir
(School of Engineering, Damghan University, P. O. Box 3671641167, Damghan, Iran)
- Mohammad Mahdi Amooei
(School of Engineering, Damghan University, P. O. Box 3671641167, Damghan, Iran)
- Yuan Ma
(��Shanghai Automotive Wind Tunnel Center, Tongji University, No. 4800, Cao’an Road Shanghai 201804, P. R. China‡Shanghai Key Lab of Vehicle Aerodynamics and Vehicle Thermal Management Systems, No. 4800, Cao’an Road, Shanghai 201804, P. R. China)
Abstract
This paper contains natural convection of Ag–MgO/water micropolar hybrid nanofluid in a hollow hot square enclosure equipped by four cold obstacles on the walls. The simulations were performed by the lattice Boltzmann method (LBM). The influences of Rayleigh number and volume fraction of nanoparticle on the fluid flow and heat transfer performance were studied. Moreover, the effects of some geometric parameters, such as cold obstacle height and aspect ratio, were also considered in this study. The results showed that when the aspect ratio is not large (AR=0.2 or 0.4), at low Rayleigh number (103), the two secondary vortices are established in each main vortex and this kind of secondary vortex does not form at high Rayleigh number (106). However, at Ra=106, these secondary vortices occur again in the middle two vortices at AR=0.6, which is similar to that at Ra=103. At AR=0.2, the critical Rayleigh number, when the dominated mechanism of heat transfer changes from conduction to convection, is 104. However, the critical Rayleigh number becomes 105 at AR=0.4 or 0.6. When the cold obstacle height increases, the shape of the vortices inside the enclosure changes due to the different spaces. Besides, at Ra=106, for different cold obstacle heights, the location of the thermal plume is different, owing to the different shapes of vortices. Accordingly, the average Nusselt number increases by increment of the Rayleigh number, nanoparticle volume fraction, cold obstacle height and aspect ratio.
Suggested Citation
Rasul Mohebbi & Mohsen Babamir & Mohammad Mahdi Amooei & Yuan Ma, 2022.
"Effect of obstacle height on the nanofluid convection patterns inside a hollow square enclosure,"
International Journal of Modern Physics C (IJMPC), World Scientific Publishing Co. Pte. Ltd., vol. 33(02), pages 1-18, February.
Handle:
RePEc:wsi:ijmpcx:v:33:y:2022:i:02:n:s0129183122500267
DOI: 10.1142/S0129183122500267
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